SU706763A1 - Method of monitoring air-distributing system operation - Google Patents

Description

I

The invention relates to the field of air analysis in air conditioning systems, in particular, to the control of air distribution systems in hot air facilities with a small volume of air environment, equipped with air ventilation and air conditioning systems, for example, in ship cabins.

The control of the air distribution systems is used to find a rational choice and placement of inlet and exhaust devices that ensure the maintenance of optimal microclimate conditions (air speed, relative humidity, temperature) that meet sanitary and hygienic requirements in ships' premises, eliminating stagnant zones, where harmful substances may accumulate.

A known method for controlling the air distribution, according to which the indicator gas is fed into the system, samples are taken and analyzed for COj with the detector by heat conduction, and the spines (using a karometer) 1.

The disadvantages of this method are associated with the low sensitivity of the analytical instrument catarometer for COj and the inaccuracy of the dosage of large amounts of C02 in the room, on the one hand, and the features of CO, on the other. In addition to the COCO dosage delivered to the room, uncontrolled amounts of COj are contained in the incoming air itself, are separated from some materials and equipped from the human body, which causes an error in its determination and thus introduces a significant error in determining the actual air exchange in the room. In addition, the molecular weight of CO2 compared to the molecular weight of the air is quite large (M.V. air 29, M.V.C02 46), in connection with which the CO2 is lowered under the influence of gravitational forces, distorting the picture of the air distribution system . All this leads to a lack of reliability of the assessment of the actual air exchange in the room.

Claims (2)

There is also known a method of controlling the operation of the system air distribution in the dry cell by supplying the indicator gas to the system, sampling the mixture of indicator gas 3 with air from different parts of the system and analyzing them 2. The purpose of the invention is to increase the sensitivity and accuracy of controlling air exchange during the operation of air distribution systems small volume of the air environment. This goal is achieved by choosing ethane as the indicator gas, and analyzing samples by ionizing flame. The drawing shows a block diagram of an apparatus for carrying out the method. Outside the investigated germobject 1 installed mouth. An ethane dosage unit 2, an air-ethane flow rate booster 3, are connected by a hose to a flame detector assembly 4, which includes detector 5 itself, detector power supply unit 6, and amplifier 7 for small currents. A gas supply device 8 is connected to the PLC-ionisation detector with the help of hoses, which supply the detector with hydrogen and air. The output of the amplifier 7 small currents is connected with the input of the recording device 9 (recorder). From the device 2, the dosage of ethane enters the investigated germobject 1 at a concentration of 20 mg / m. The air-ethane mixture formed in the test object by means of the flow booster 3 is fed to the detector 5. The hydrogen and air necessary for the operation of the flame ionization detector come from the gas supply device 8. To create an electric field, a constant voltage is applied to the detector from the power supply unit 6. Simultaneously from the power supply unit of the Shyo post, to the voltage on the flame ignition spiral An air-ethane mixture, falling into the flame, detects an increase in the ion current. The signal taken from the flame ionization detector is fed to the input of a small current amplifier. To register the measured value on the amplifier of small currents included self-typing. :., The use of a flame ionization detector as a device for quantitative assessment of a gas traser makes it possible to measure the concentration of ethane in a mixture with air in an amount of approximately 20 mg / m, which will significantly reduce the amount of feed 4 per sample. volume germobject of traser gas. In connection with a small volume of gas-trasetra, the possibility of using ethane appeared, the advantage of which compared to CO / is as follows: the molecular weight of ethane is lower than that of CO and close to the molecular weight of air. (M.V. Ztan - 30; M-Air 29), therefore, it does not settle under the action of gravitational forces, is evenly distributed throughout the volume of the room and does not distort the picture of the actual air exchange in the room; ethane is non-toxic, is not adsorbed by the walls and equipment of the cabin, is not isolated from equipment or from the human body, and does not enter into chemical interaction with cabin air and internal fencing coatings; ethane is absent in the supply air. The last two points exclude factors that may affect the change in ethane concentration during its determination. The amount of ethane fed to the cabin to evaluate the performance of the air distribution systems is 20 mg / m. When the volume of the test room is 6-8 m, 120-160 ml of ethane must be supplied, which is five orders of magnitude lower than the lower explosive limit of ethane. Claims The method of controlling the operation of air distribution systems by feeding indicator gas into the system, sampling the mixture of indicator gas with air from different parts of the system and analyzing the mixture samples, characterized in that in order to increase the sensitivity and accuracy of air exchange control in systems with a small volume of air , ethane was selected as the indicator gas, and the samples were analyzed by flame ionization. Sources of information taken into account in the examination 1. Golberg KV Course gas chromatography. M., 1967, p. 168. 2. Golbert KV. Course of gas chromatography. M., 1967, p. 175 (prototype). G, f